Yes. The Formula for momentum is Momentum= Mass x Velocity.
If the slower car has a larger mass, it will likely have a larger momentum.
Momentum (p) is defined as mass (m) times velocity (v). p = m*v Therefore, if you increase velocity, you also increase momentum. You can easily observe this by noting that it takes more force to slow down a faster moving object than a slower moving object.
When two moving objects collide and one is moving faster than the other, the faster object will transfer some of its momentum to the slower object upon impact. This transfer of momentum will cause both objects to change their speed and direction, depending on their masses and initial velocities. The extent of the change in motion will be determined by the conservation of momentum principle.
A fast-moving car has more momentum than a slow-moving car because momentum is directly proportional to an object's velocity. The momentum of an object is the product of its mass and velocity, so the faster the object is moving, the greater its momentum.
A speeding baseball would have more momentum than an ocean liner at rest in the harbor. Momentum is the product of an object's mass and its velocity, so the faster-moving baseball would have greater momentum than the stationary ocean liner.
All I know is that if the Gyroscope's wheel is heavier it will precess faster and if it spins faster it will precess slower. But I'm not sure if slower or faster precession creates a more stable gyroscope.
faster atoms have more kinetic energy than slower atoms do.
A cars weight affects its speed by varying its momentum. If the car has more weight, it has more momentum. With more momentum comes more inertia.(definition: inertia- an objects resistance to change in direction or movement) If the car has a lot of weight, it will speed up slower and stop slower because the cars inertia and momentum keep propelling it forward. If a car has less weight, it will speed up faster and stop faster because the momentum of the car is less than that of the heavier car. A: It is called the power to weight ratio.
Momentum (p) is defined as mass (m) times velocity (v). p = m*v Therefore, if you increase velocity, you also increase momentum. You can easily observe this by noting that it takes more force to slow down a faster moving object than a slower moving object.
The answer is tied up with conservation of momentum; momentum is the product of velocity and mass, so assuming the ball is lighter than the skateboard and rider, the skateboard will go backwards slower than the ball.
nothing. that is impossible because if it is faster than a bird, then it isn't slower than a snail. and if it is slower than a snail, then it isn't faster than a bird.
When two moving objects collide and one is moving faster than the other, the faster object will transfer some of its momentum to the slower object upon impact. This transfer of momentum will cause both objects to change their speed and direction, depending on their masses and initial velocities. The extent of the change in motion will be determined by the conservation of momentum principle.
A fast-moving car has more momentum than a slow-moving car because momentum is directly proportional to an object's velocity. The momentum of an object is the product of its mass and velocity, so the faster the object is moving, the greater its momentum.
inkjet is faster, easier, and more afficient.
a lamborghini is slower than a ferrai a lamborghini is slower than a ferrai
only faster not slower.
Slower or faster than what? - When the Earth is nearer the Sun (periapsis), it moves faster than when it is farther away from the Sun (apapsis).
A cow